1 Beijing Key Laboratory for Agricultural Application and New Technique, College of Plant Science and Technology, Beijing University of Agricultural, Beijing 102206, China
2 Key Laboratory of Urban Agriculture of Ministry of (North) Agriculture, College of Biological Sciences and Engineering, Beijing University of Agricultural, Beijing 102206, China

Making full use of local weed resources to produce Agaricus bisporus is of great importance in reducing production costs and protecting the environment. In this paper, three trial experiments were conducted on the basis of weed diversity investigation around the Miyun Reservoir and the adjustment of formulation and technology in the industrial production of A. bisporus. Compost samples from different phases of the composting process and at various cultivation stages were collected for the determination of their physical-chemical properties, lignocellulose content, lignocellulolytic enzyme activities, and bacterial communities enrichment by 16S rRNA gene sequencing. The yield of mushrooms in each different trial was also calculated. The results showed several types of reservoir weeds with high, thick and hard stems. The saturated moisture of weeds was 76.78% after baling. The water content, carbon content, and C/N ratio of the samples decreased gradually during composting, but had little change during cultivation. The nitrogen content decreased at the end of phase I and increased at the end of phase II. During composting, the loss rates of hemicellulose and cellulose were both between 40% and 60%, and the loss rate of lignin was between 20% and 30%. During cultivation, instead, the loss rate of lignin was between 16% and 21%. The changes in the content of cellulose and hemicellulose of compost were consistent with that of the activity of the related degradation enzymes. A total of 432 595 valid sequences were obtained by Illumina sequencing for the samples derived from the three composting trials, and the average length of the sequences was 441 bp. Taxonomic analysis showed that the dominant bacteria were Prevotella (phylum Bacteroidetes), Bacillus (phylum Firmicutes), Thermus, Truepera, and Caldicoprobacter (phylum Deinococcus-Thermus), Thermopolyspora (phylum Actinobacteria), and Pseudoxanthomonas (phylum Proteobacteria).The yield of the three trials was in the range of 17.1-19.7 kg/m2. It is thus feasible to use reservoir weeds compost instead of wheat straw compost for the cultivation of A. bisporus.